test/fuse.go - go - Git at Google

 // +build amd64,!gcflags_noopt arm64,!gcflags_noopt
 // errorcheck -0 -d=ssa/late_fuse/debug=1

 // Copyright 2021 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package main

 import "strings"

 const Cf2 = 2.0

 func fEqEq(a int, f float64) bool {
 	return a == 0 && f > Cf2 || a == 0 && f < -Cf2 // ERROR "Redirect Eq64 based on Eq64$"
 }

 func fEqNeq(a int32, f float64) bool {
 	return a == 0 && f > Cf2 || a != 0 && f < -Cf2 // ERROR "Redirect Neq32 based on Eq32$"
 }

 func fEqLess(a int8, f float64) bool {
 	return a == 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fEqLeq(a float64, f float64) bool {
 	return a == 0 && f > Cf2 || a <= 0 && f < -Cf2
 }

 func fEqLessU(a uint, f float64) bool {
 	return a == 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fEqLeqU(a uint64, f float64) bool {
 	return a == 0 && f > Cf2 || a <= 0 && f < -Cf2 // ERROR "Redirect Leq64U based on Eq64$"
 }

 func fNeqEq(a int, f float64) bool {
 	return a != 0 && f > Cf2 || a == 0 && f < -Cf2 // ERROR "Redirect Eq64 based on Neq64$"
 }

 func fNeqNeq(a int32, f float64) bool {
 	return a != 0 && f > Cf2 || a != 0 && f < -Cf2 // ERROR "Redirect Neq32 based on Neq32$"
 }

 func fNeqLess(a float32, f float64) bool {
 	// TODO: Add support for floating point numbers in prove
 	return a != 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fNeqLeq(a int16, f float64) bool {
 	return a != 0 && f > Cf2 || a <= 0 && f < -Cf2 // ERROR "Redirect Leq16 based on Neq16$"
 }

 func fNeqLessU(a uint, f float64) bool {
 	return a != 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fNeqLeqU(a uint32, f float64) bool {
 	return a != 0 && f > Cf2 || a <= 0 && f < -Cf2 // ERROR "Redirect Leq32U based on Neq32$"
 }

 func fLessEq(a int, f float64) bool {
 	return a < 0 && f > Cf2 || a == 0 && f < -Cf2
 }

 func fLessNeq(a int32, f float64) bool {
 	return a < 0 && f > Cf2 || a != 0 && f < -Cf2
 }

 func fLessLess(a float32, f float64) bool {
 	return a < 0 && f > Cf2 || a < 0 && f < -Cf2 // ERROR "Redirect Less32F based on Less32F$"
 }

 func fLessLeq(a float64, f float64) bool {
 	return a < 0 && f > Cf2 || a <= 0 && f < -Cf2
 }

 func fLeqEq(a float64, f float64) bool {
 	return a <= 0 && f > Cf2 || a == 0 && f < -Cf2
 }

 func fLeqNeq(a int16, f float64) bool {
 	return a <= 0 && f > Cf2 || a != 0 && f < -Cf2 // ERROR "Redirect Neq16 based on Leq16$"
 }

 func fLeqLess(a float32, f float64) bool {
 	return a <= 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fLeqLeq(a int8, f float64) bool {
 	return a <= 0 && f > Cf2 || a <= 0 && f < -Cf2 // ERROR "Redirect Leq8 based on Leq8$"
 }

 func fLessUEq(a uint8, f float64) bool {
 	return a < 0 && f > Cf2 || a == 0 && f < -Cf2
 }

 func fLessUNeq(a uint16, f float64) bool {
 	return a < 0 && f > Cf2 || a != 0 && f < -Cf2
 }

 func fLessULessU(a uint32, f float64) bool {
 	return a < 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fLessULeqU(a uint64, f float64) bool {
 	return a < 0 && f > Cf2 || a <= 0 && f < -Cf2
 }

 func fLeqUEq(a uint8, f float64) bool {
 	return a <= 0 && f > Cf2 || a == 0 && f < -Cf2 // ERROR "Redirect Eq8 based on Leq8U$"
 }

 func fLeqUNeq(a uint16, f float64) bool {
 	return a <= 0 && f > Cf2 || a != 0 && f < -Cf2 // ERROR "Redirect Neq16 based on Leq16U$"
 }

 func fLeqLessU(a uint32, f float64) bool {
 	return a <= 0 && f > Cf2 || a < 0 && f < -Cf2
 }

 func fLeqLeqU(a uint64, f float64) bool {
 	return a <= 0 && f > Cf2 || a <= 0 && f < -Cf2 // ERROR "Redirect Leq64U based on Leq64U$"
 }

 // Arg tests are disabled because the op name is different on amd64 and arm64.

 func fEqPtrEqPtr(a, b *int, f float64) bool {
 	return a == b && f > Cf2 || a == b && f < -Cf2 // ERROR "Redirect EqPtr based on EqPtr$"
 }

 func fEqPtrNeqPtr(a, b *int, f float64) bool {
 	return a == b && f > Cf2 || a != b && f < -Cf2 // ERROR "Redirect NeqPtr based on EqPtr$"
 }

 func fNeqPtrEqPtr(a, b *int, f float64) bool {
 	return a != b && f > Cf2 || a == b && f < -Cf2 // ERROR "Redirect EqPtr based on NeqPtr$"
 }

 func fNeqPtrNeqPtr(a, b *int, f float64) bool {
 	return a != b && f > Cf2 || a != b && f < -Cf2 // ERROR "Redirect NeqPtr based on NeqPtr$"
 }

 func fEqInterEqInter(a interface{}, f float64) bool {
 	return a == nil && f > Cf2 || a == nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
 }

 func fEqInterNeqInter(a interface{}, f float64) bool {
 	return a == nil && f > Cf2 || a != nil && f < -Cf2
 }

 func fNeqInterEqInter(a interface{}, f float64) bool {
 	return a != nil && f > Cf2 || a == nil && f < -Cf2
 }

 func fNeqInterNeqInter(a interface{}, f float64) bool {
 	return a != nil && f > Cf2 || a != nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
 }

 func fEqSliceEqSlice(a []int, f float64) bool {
 	return a == nil && f > Cf2 || a == nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
 }

 func fEqSliceNeqSlice(a []int, f float64) bool {
 	return a == nil && f > Cf2 || a != nil && f < -Cf2
 }

 func fNeqSliceEqSlice(a []int, f float64) bool {
 	return a != nil && f > Cf2 || a == nil && f < -Cf2
 }

 func fNeqSliceNeqSlice(a []int, f float64) bool {
 	return a != nil && f > Cf2 || a != nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
 }

 func fPhi(a, b string) string {
 	aslash := strings.HasSuffix(a, "/") // ERROR "Redirect Phi based on Phi$"
 	bslash := strings.HasPrefix(b, "/")
 	switch {
 	case aslash && bslash:
 		return a + b[1:]
 	case !aslash && !bslash:
 		return a + "/" + b
 	}
 	return a + b
 }

 func main() {
 }
	// +build amd64,!gcflags_noopt arm64,!gcflags_noopt
	// errorcheck -0 -d=ssa/late_fuse/debug=1

	// Copyright 2021 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package main

	import "strings"

	const Cf2 = 2.0

	func fEqEq(a int, f float64) bool {
	return a == 0 && f > Cf2 \|\| a == 0 && f < -Cf2 // ERROR "Redirect Eq64 based on Eq64$"
	}

	func fEqNeq(a int32, f float64) bool {
	return a == 0 && f > Cf2 \|\| a != 0 && f < -Cf2 // ERROR "Redirect Neq32 based on Eq32$"
	}

	func fEqLess(a int8, f float64) bool {
	return a == 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fEqLeq(a float64, f float64) bool {
	return a == 0 && f > Cf2 \|\| a <= 0 && f < -Cf2
	}

	func fEqLessU(a uint, f float64) bool {
	return a == 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fEqLeqU(a uint64, f float64) bool {
	return a == 0 && f > Cf2 \|\| a <= 0 && f < -Cf2 // ERROR "Redirect Leq64U based on Eq64$"
	}

	func fNeqEq(a int, f float64) bool {
	return a != 0 && f > Cf2 \|\| a == 0 && f < -Cf2 // ERROR "Redirect Eq64 based on Neq64$"
	}

	func fNeqNeq(a int32, f float64) bool {
	return a != 0 && f > Cf2 \|\| a != 0 && f < -Cf2 // ERROR "Redirect Neq32 based on Neq32$"
	}

	func fNeqLess(a float32, f float64) bool {
	// TODO: Add support for floating point numbers in prove
	return a != 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fNeqLeq(a int16, f float64) bool {
	return a != 0 && f > Cf2 \|\| a <= 0 && f < -Cf2 // ERROR "Redirect Leq16 based on Neq16$"
	}

	func fNeqLessU(a uint, f float64) bool {
	return a != 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fNeqLeqU(a uint32, f float64) bool {
	return a != 0 && f > Cf2 \|\| a <= 0 && f < -Cf2 // ERROR "Redirect Leq32U based on Neq32$"
	}

	func fLessEq(a int, f float64) bool {
	return a < 0 && f > Cf2 \|\| a == 0 && f < -Cf2
	}

	func fLessNeq(a int32, f float64) bool {
	return a < 0 && f > Cf2 \|\| a != 0 && f < -Cf2
	}

	func fLessLess(a float32, f float64) bool {
	return a < 0 && f > Cf2 \|\| a < 0 && f < -Cf2 // ERROR "Redirect Less32F based on Less32F$"
	}

	func fLessLeq(a float64, f float64) bool {
	return a < 0 && f > Cf2 \|\| a <= 0 && f < -Cf2
	}

	func fLeqEq(a float64, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a == 0 && f < -Cf2
	}

	func fLeqNeq(a int16, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a != 0 && f < -Cf2 // ERROR "Redirect Neq16 based on Leq16$"
	}

	func fLeqLess(a float32, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fLeqLeq(a int8, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a <= 0 && f < -Cf2 // ERROR "Redirect Leq8 based on Leq8$"
	}

	func fLessUEq(a uint8, f float64) bool {
	return a < 0 && f > Cf2 \|\| a == 0 && f < -Cf2
	}

	func fLessUNeq(a uint16, f float64) bool {
	return a < 0 && f > Cf2 \|\| a != 0 && f < -Cf2
	}

	func fLessULessU(a uint32, f float64) bool {
	return a < 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fLessULeqU(a uint64, f float64) bool {
	return a < 0 && f > Cf2 \|\| a <= 0 && f < -Cf2
	}

	func fLeqUEq(a uint8, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a == 0 && f < -Cf2 // ERROR "Redirect Eq8 based on Leq8U$"
	}

	func fLeqUNeq(a uint16, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a != 0 && f < -Cf2 // ERROR "Redirect Neq16 based on Leq16U$"
	}

	func fLeqLessU(a uint32, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a < 0 && f < -Cf2
	}

	func fLeqLeqU(a uint64, f float64) bool {
	return a <= 0 && f > Cf2 \|\| a <= 0 && f < -Cf2 // ERROR "Redirect Leq64U based on Leq64U$"
	}

	// Arg tests are disabled because the op name is different on amd64 and arm64.

	func fEqPtrEqPtr(a, b *int, f float64) bool {
	return a == b && f > Cf2 \|\| a == b && f < -Cf2 // ERROR "Redirect EqPtr based on EqPtr$"
	}

	func fEqPtrNeqPtr(a, b *int, f float64) bool {
	return a == b && f > Cf2 \|\| a != b && f < -Cf2 // ERROR "Redirect NeqPtr based on EqPtr$"
	}

	func fNeqPtrEqPtr(a, b *int, f float64) bool {
	return a != b && f > Cf2 \|\| a == b && f < -Cf2 // ERROR "Redirect EqPtr based on NeqPtr$"
	}

	func fNeqPtrNeqPtr(a, b *int, f float64) bool {
	return a != b && f > Cf2 \|\| a != b && f < -Cf2 // ERROR "Redirect NeqPtr based on NeqPtr$"
	}

	func fEqInterEqInter(a interface{}, f float64) bool {
	return a == nil && f > Cf2 \|\| a == nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
	}

	func fEqInterNeqInter(a interface{}, f float64) bool {
	return a == nil && f > Cf2 \|\| a != nil && f < -Cf2
	}

	func fNeqInterEqInter(a interface{}, f float64) bool {
	return a != nil && f > Cf2 \|\| a == nil && f < -Cf2
	}

	func fNeqInterNeqInter(a interface{}, f float64) bool {
	return a != nil && f > Cf2 \|\| a != nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
	}

	func fEqSliceEqSlice(a []int, f float64) bool {
	return a == nil && f > Cf2 \|\| a == nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
	}

	func fEqSliceNeqSlice(a []int, f float64) bool {
	return a == nil && f > Cf2 \|\| a != nil && f < -Cf2
	}

	func fNeqSliceEqSlice(a []int, f float64) bool {
	return a != nil && f > Cf2 \|\| a == nil && f < -Cf2
	}

	func fNeqSliceNeqSlice(a []int, f float64) bool {
	return a != nil && f > Cf2 \|\| a != nil && f < -Cf2 // ERROR "Redirect IsNonNil based on IsNonNil$"
	}

	func fPhi(a, b string) string {
	aslash := strings.HasSuffix(a, "/") // ERROR "Redirect Phi based on Phi$"
	bslash := strings.HasPrefix(b, "/")
	switch {
	case aslash && bslash:
	return a + b[1:]
	case !aslash && !bslash:
	return a + "/" + b
	}
	return a + b
	}

	func main() {
	}